超宽带光啁啾线性化在精密测量应用中的研究。
Ultrabroadband optical chirp linearization for precision metrology applications.
机构信息
Bridger Photonics, Inc., 2310 University Way, Building 4-4, Bozeman, Montana 59715, USA.
出版信息
Opt Lett. 2009 Dec 1;34(23):3692-4. doi: 10.1364/OL.34.003692.
We demonstrate precise linearization of ultrabroadband laser frequency chirps via a fiber-based self-heterodyne technique to enable extremely high-resolution, frequency-modulated cw laser-radar (LADAR) and a wide range of other metrology applications. Our frequency chirps cover bandwidths up to nearly 5 THz with frequency errors as low as 170 kHz, relative to linearity. We show that this performance enables 31-mum transform-limited LADAR range resolution (FWHM) and 86 nm range precisions over a 1.5 m range baseline. Much longer range baselines are possible but are limited by atmospheric turbulence and fiber dispersion.
我们通过基于光纤的自外差技术实现了超宽带激光频率啁啾的精确线性化,从而能够实现极高分辨率、调频连续波激光雷达(LADAR)以及其他广泛的计量应用。我们的频率啁啾带宽可达近 5 THz,频率误差低至 170 kHz,相对于线性度。我们表明,这种性能可实现 31 微米的变换限制 LADAR 范围分辨率(FWHM)和 1.5 米基线范围内 86nm 的范围精度。更长的范围基线也是可能的,但受到大气湍流和光纤色散的限制。
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